Automated Logic R683 Скачать руководство пользователя страница 6 | Manualshive

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Automated Logic R683 Скачать руководство пользователя страница 6

6

Rev. (30-JAN-98) • RLM v4.7

© 1995-98 Automated Logic Corporation

Local Setpoint Adjust

Use the sensor's left switch to adjust the occupied
setpoints. When this switch is placed in the middle
position, the setpoints specified on the RLM FB
parameter page are in effect. The switch's left position
lowers the setpoints by an amount specified on the
parameter page (default is 3 degrees). The switch's right
position raises the setpoints by the same amount.

Timed Local Override

Use the sensor's right switch to activate the zone override.
The switch is spring loaded and always returns to the
right position. This switch has no effect when the zone is
scheduled occupied. When the zone is scheduled
unoccupied, toggling the switch causes the zone to
become occupied. The amount of override time is equal
to the number of times the override switch is toggled
multiplied by the "override increment per toggle"
parameter as defined on the parameter page. For example,
if the increment is set at 60, toggle the switch once for an
occupancy of 60 minutes, twice for 120 minutes, etc.
Once the zone is occupied from this switch, pressing it
again and holding it in the left position for the reset
interval (three seconds default) causes the zone to
become unoccupied.

Occupancy Indication

The LED on top of the sensor lights up whenever the
zone is occupied, whether from a regular schedule, the
action of the Local Override Switch, or an telephone
override.

NOTE: Pins 4 and 7 must be connected to utilize the
occupancy indicator.

Using the Enhanced Zone Sensor

Shown in Figure 8, the enhanced zone sensor provides
local setpoint adjust, timed local override, and
occupancy indication.

Figure 8: Enhanced Zone Sensor Connection

Figure 7: Enhanced Zone Sensor Wiring

8 7 6 5 4 3 2 1

J1

SENSOR

TERM

1

2

3

4

5

6

7

8

MODULE

TERM

W IRE

COLOR

FUNCTION

1

2

3

4

5

6

7

8

BLACK

BROWN

RED

ORANGE

YELLOW

GREEN

BLUE

WHITE

GND

THERMISTOR

SWITCH INPUT

RSZ+ LED

+ COMM

- COMM

5V+, LED Power

NOT USED

RSZ+

C M n e t

+ -

A C C E S S

R 683 m odule

Note: When making a sensor cable, disregard the
numbers imprinted on the plastic connector.

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Содержание R683

Страница 1: ...ne Sensor 5 Enhanced Zone Sensor 5 Using the Enhanced Zone Sensor 6 Local Setpoint Adjust 6 Timed Local Override 6 Occupancy Indication 6 LocalAccess 7 UniversalInputs 9 Procedure 9 Custom Translation...

Страница 2: ...s provided for diagnostic operations The R683 module can store a single Graphic Function Block GFB Specifications Power 24 VAC 50 60 Hz 20 VA 0 83 A maximum Inputs One enhanced zone sensor port and 8...

Страница 3: ...he two large holes allow screws to pass through the module and hold the enclosure to the surface on which it is mounted see Figure 2 Panel Mounting To mount the R683 module directly to a surface the N...

Страница 4: ...cation 6 Verify that 24 VAC is present at the power input NOTE Before turning the power on see Addressing and Baud Rate later in this document An error condition will occur if the address of the R683...

Страница 5: ...nput 1 UI 1 connect the zone sensor wires to pins 1 and 2 on the 8 pin receptacle on the R683 module see Figure 5 3 Turn the module s power switch back ON 4 Input the channel number offset and gain on...

Страница 6: ...page For example if the increment is set at 60 toggle the switch once for an occupancy of 60 minutes twice for 120 minutes etc Once the zone is occupied from this switch pressing it again and holding...

Страница 7: ...ation is shown below The cable should not exceed 50 ft See Figure 11 for how to use the switches on the NI485 cable NOTE When making a sensor cable disregard the numbers imprinted on the plastic conne...

Страница 8: ...8 Rev 30 JAN 98 RLM v4 7 1995 98 Automated Logic Corporation Figure 12 R683 I O Connections...

Страница 9: ...pply see Figure 6 In some special cases when the module s power is limited a 4 20 mA passive transducer does require and external power supply to avoid power consumption from the module Table 1 Proced...

Страница 10: ...r voltage to the desired units Procedure 1 Display the R683 module driver parameter page FB 15 in SuperVision 2 For thermistor slidepot and other resistance inputs set the option Is input specified in...

Страница 11: ...dure 1 Turn the R683 s power switch OFF 2 Terminate the output wiring to the top termination strip as shown in Figure 12 3 Turn the R683 s power switch ON Digital Outputs The R683 has six digital outp...

Страница 12: ...683 s power switch OFF 6 Set the R683 s address and baud rate using the 8 position dip switch see Figure 1 for location 7 Turn the R683 module s power ON The module is now formatted LEDs Identificatio...

Страница 13: ...age and verify that the module type and number agrees with the module to be transferred 4 Transfer memory to this module For SuperVision 2 6 and earlier click on the Download icon and choose the Memor...

Страница 14: ...5 06 Is input specified in voltage YES 0 Millivolts 0 00 500 Millivolts 50 00 1000 Millivolts 100 0 1500 Millivolts 150 0 2000 Millivolts 200 0 2500 Millivolts 250 0 3000 Millivolts 300 0 3500 Millivo...

Страница 15: ...0 00 1 5 88 27 to 1 0 0 6 C 0 00 1 5 69 Zo ne Se nso r Inp ut RS Z Zo ne Se nso r Inp ut RS Z The rm isto r The rm isto r 39 39 1 7 to 2 13 F 0 00 1 5 88 27 to 1 0 0 6 C 0 00 1 5 69 S etpo int Ad jus...

Страница 16: ...imer Normally at 10 minutes when the module is not halted Counts down when the module is halted or has other serious errors When it reaches zero the module re initializes itself to try to clear the so...

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